US11060747B2ActiveUtilityPatentIndex 50
Systems and methods for predicting HVAC filter change using temperature measurements
Est. expiryOct 24, 2037(~11.3 yrs left)· nominal 20-yr term from priority
F24F 11/63F24F 11/38F24F 2120/10F24F 2110/10F24F 11/61F24F 11/64F24F 11/39
50
PatentIndex Score
0
Cited by
19
References
24
Claims
Abstract
Systems and methods for estimating a replacement status of an air filter in an HVAC system, based on obtaining data correlated with the temperature of air outputted by the HVAC system as a function of time.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1. A method for estimating a replacement status of an air filter in an HVAC system, the method comprising:
obtaining data correlated with the temperature of air outputted by the HVAC system as a function of time;
determining a Total Runtime Value of a fan of the HVAC system based upon the obtained data,
wherein the process of determining a Total Runtime Value of the fan of the HVAC system based upon the obtained data correlated with the temperature of air outputted by the HVAC system as a function of time, comprises calculating a total amount of time that a temperature of air outputted by the HVAC system is above a high-temperature threshold value, or is below a low-temperature threshold value; and
estimating a replacement status of the air filter as a function of a comparison of the Total Runtime Value with a Baseline Value.
2. The method of claim 1 wherein the data is obtained by a temperature sensor located in a dwelling served by the HVAC system.
3. The method of claim 2 wherein the data correlated with the temperature of air outputted by the HVAC system is communicated by the temperature sensor to a remote processing module that is not resident on the temperature sensor, and wherein the remote processing module performs the steps of determining the Total Runtime Value of the fan of the HVAC system based upon the obtained data and estimating the replacement status of the air filter as a function of the comparison of the Total Runtime Value with the Baseline Value.
4. The method of claim 3 wherein the replacement status of the air filter is communicated by the remote processing module to a remote reporting module that reports the replacement status of the air filter.
5. The method of claim 4 wherein the remote reporting module is resident on a computing device chosen from a smartphone, laptop computer, tablet computer, and desktop computer.
6. The method of claim 1 wherein the data is obtained by a temperature sensor that measures a temperature of a surface of a register that is installed in an outlet of the HVAC system.
7. The method of claim 1 wherein the data is obtained by a temperature sensor that measures a temperature of an external surface of a supply duct of the HVAC system.
8. The method of claim 1 wherein the data is obtained by a temperature sensor located proximate to an outlet of the HVAC system.
9. The method of claim 8 wherein the data is obtained by a temperature sensor that measures the temperature of air exiting the outlet of the HVAC system.
10. The method of claim 1 , wherein the Baseline Value to which the Total Runtime Value is compared, is a constant that corresponds to a nominal usable filter life of the air filter.
11. The method of claim 1 , wherein the Baseline Value to which the Total Runtime Value is compared, is a variable that is a function of one or more parameters chosen from the list consisting of: a parameter representative of a level of outdoor airborne particles, a parameter representative of a level of outdoor pollen, a parameter representative of an indoor dust level of a dwelling served by the HVAC system, a parameter representative of an indoor level of pet dander in the dwelling, a parameter representative of an occupancy level of the dwelling, a parameter representative of an indoor level of smoke in the dwelling, a parameter representative of an allergy state of an occupant of the dwelling, and a user preference parameter.
12. The method of claim 1 , wherein the HVAC system is a residential, on-demand HVAC system.
13. A method for estimating a replacement status of an air filter in an HVAC system, the method comprising:
obtaining data correlated with the temperature of air outputted by the HVAC system as a function of time;
determining a Total Runtime Value of a fan of the HVAC system based upon the obtained data,
wherein the data is obtained by a temperature sensor located in a dwelling served by the HVAC system and wherein the determining of the Total Runtime Value of the fan of the HVAC system based upon the obtained data and the estimating of a replacement status of the air filter as a function of the comparison of the Total Runtime Value with the Baseline Value, are performed by a processing module that is resident on the temperature sensor; and
estimating a replacement status of the air filter as a function of a comparison of the Total Runtime Value with a Baseline Value.
14. The method of claim 13 wherein the replacement status of the air filter is reported by a reporting module that is resident on the temperature sensor.
15. A method for estimating a replacement status of an air filter in an HVAC system, the method comprising:
obtaining data correlated with the temperature of air outputted by the HVAC system as a function of time,
wherein the data correlated with the temperature of air outputted by the HVAC system as a function of time is obtained by a temperature sensor that is located in a dwelling served by the HVAC system and that obtains data intermittently according to a time clock, wherein the temperature sensor comprises a sleep operating mode from which the temperature sensor awakens intermittently to an interrogation operating mode in order to obtain data;
determining a Total Runtime Value of a fan of the HVAC system based upon the obtained data; and
estimating a replacement status of the air filter as a function of a comparison of the Total Runtime Value with a Baseline Value.
16. The method of claim 15 wherein the temperature sensor awakens to the interrogation operating mode to obtain data, at a frequency of no less than once every 10 minutes, and no more than once every 30 seconds.
17. A method for estimating a replacement status of an air filter in an HVAC system, the method comprising:
obtaining data correlated with the temperature of air outputted by the HVAC system as a function of time;
determining a Total Runtime Value of a fan of the HVAC system based upon the obtained data,
wherein the Total Runtime Value is an Adjusted Total Runtime Value that includes an Adjustment Addition that is correlated with a length of time that the HVAC is operating in a circulation mode in which the fan of the HVAC system is operating but the HVAC system is not heating or cooling;
and
estimating a replacement status of the air filter as a function of a comparison of the Total Runtime Value with a Baseline Value.
18. The method of claim 17 wherein the data correlated with the temperature of air outputted by the HVAC system as a function of time is obtained by a temperature sensor located in a dwelling served by the HVAC system and wherein the data is communicated by the temperature sensor to a remote processing module that is not resident on the temperature sensor, and wherein the remote processing module performs the steps of determining the Total Runtime Value of the fan of the HVAC system based upon the obtained data and estimating the replacement status of the air filter as a function of the comparison of the Total Runtime Value with the Baseline Value.
19. The method of claim 17 , wherein the HVAC system is a residential, on-demand HVAC system.
20. A method for estimating a replacement status of an air filter in an HVAC system, the method comprising:
obtaining data correlated with the temperature of air outputted by the HVAC system as a function of time;
determining a Total Runtime Value of a fan of the HVAC system based upon the obtained data,
wherein the process of determining a Total Runtime Value of the fan of the HVAC system based upon the obtained data correlated with the temperature of air outputted by the HVAC system as a function of time, comprises a step of calculating a slope of the temperature of air outputted by the HVAC system as a function of time;
and
estimating a replacement status of the air filter as a function of a comparison of the Total Runtime Value with a Baseline Value.
21. The method of claim 20 wherein the data correlated with the temperature of air outputted by the HVAC system as a function of time is obtained by a temperature sensor located in a dwelling served by the HVAC system and wherein the data is communicated by the temperature sensor to a remote processing module that is not resident on the temperature sensor, and wherein the remote processing module performs the steps of determining the Total Runtime Value of the fan of the HVAC system based upon the obtained data and estimating the replacement status of the air filter as a function of the comparison of the Total Runtime Value with the Baseline Value.
22. The method of claim 20 , wherein the HVAC system is a residential, on-demand HVAC system.
23. The method of claim 20 wherein the data is obtained by a temperature sensor located in a dwelling served by the HVAC system.
24. The method of claim 20 wherein the data is obtained by a temperature sensor located proximate to an outlet of the HVAC system.Cited by (0)
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